According to one embodiment, provisioning an amount of power for one or more vehicles can comprise receiving a request indicating a requirement for an amount of power for the one or more vehicles. The request can indicate the requirement for the amount of power for the one or more vehicles individually or in total. A set of management rules can be read from one or more databases. A set of service configuration information and a set of vehicle specific information for the one or more vehicles can also be read from one or more databases. One or more power sources to meet the requirement for the amount of power for the one or more vehicles can be determined based on applying the management rules and using the set of service configuration information and the set of vehicle information and an indication of the determined power sources can be provided.

Provided herein is an energy delivery system for transporting electrical energy from an electrical energy generation facility to an electrical energy consumption facility via rail. The energy delivery system can comprise a train comprising at least one rail car loaded with at least one battery system. The battery system can comprise an energy transfer interface for receiving energy from the energy generation facility when the train is located at the energy generation facility for charging batteries of the battery system and for transferring energy stored by the battery system to the energy consumption facility when the train is located at the energy consumption facility. The energy transfer interface can be configured to receive energy from a corresponding energy transfer interface mounted to a crane system of the energy generation facility and to transfer energy to a corresponding energy transfer interface mounted to a crane system of the energy consumption facility.

According to one embodiment, provisioning an amount of power for one or more vehicles can comprise receiving a request indicating a requirement for an amount of power for the one or more vehicles. The request can indicate the requirement for the amount of power for the one or more vehicles individually or in total. A set of management rules can be read from one or more databases. A set of service configuration information and a set of vehicle specific information for the one or more vehicles can also be read from one or more databases. One or more power sources to meet the requirement for the amount of power for the one or more vehicles can be determined based on applying the management rules and using the set of service configuration information and the set of vehicle information and an indication of the determined power sources can be provided.

Systems of a vehicle and the operations thereof are provided. The vehicle can associate sensitive information for a user of the vehicle. Then, the vehicle can automatically provide the sensitive information for either the driver and/or passenger to a third party in an interaction with the third party. As such, user employ the automated systems of the vehicle for interactions with third parties.

A method and system are provided for detecting a driver and passenger in a vehicle. The vehicle processor stores first and second sensitive information for the driver and passenger, respectively. In response to detecting the second presence of the passenger, provides a user interface for the passenger to enter the second sensitive information, receives and associates the second sensitive information with the vehicle and, while the vehicle is in motion, communicates with an external third party positioned along a selected route of the vehicle to perform a transaction on behalf of the passenger using the second sensitive information.

A vehicle is provided that comprises two or more radio frequency (RF) antennas and two or more RF transceivers to communicate wirelessly sensitive information associated with a user of the vehicle (the two or more RF antennas being at different physical locations on an exterior of the vehicle). The vehicle determines which one of the two or more RF antennas is receiving a strongest signal from a common signal source, selects a first RF transceiver associated with the RF antenna with the strongest signal to send the sensitive information associated with the user to the common signal source, and sends the sensitive information associated with the user to the first RF transceiver for transmission to the common signal source.

Controlling availability of features of a vehicle can be based on a set of initial parameters, with each parameter related to a feature of the vehicle and defining availability of the feature. The set of initial parameters can define at least one feature of the vehicle as unavailable but further define the unavailability of the at least one feature of the vehicle as overridable upon detection of an emergency condition by the control system of the vehicle. The control system of the vehicle can apply the set of initial parameters to operations of the vehicle to control. At another time, a set of updated parameters with at least one parameter having a different value than the initial set of parameters can be applied by the control system of the vehicle to control operations of the vehicle based on levels indicated by the set of updated parameters.

A method for detecting an upcoming road situation fora vehicle is provided, the vehicle including a control unit having a receiver configured to receive transmitted data from road system components along a road for the vehicle, wherein the method includes the steps of: receiving a signal from at least one electrical charge segment along the road, the signal being indicative of a present operational status of the at least one electrical charge segment; comparing the present operational status of the at least one electrical charge segment with a predetermined set of rules; and determining that the upcoming road situation at the at least one electrical charge segment ahead of the vehicle constitutes an increased safety risk for the vehicle if the present operational status of the at least one electrical charge segment ahead of the vehicle fails to fulfil at least one of the predetermined set of rides.

A method for detecting an upcoming road situation fora vehicle is provided, the vehicle including a control unit having a receiver configured to receive transmitted data from road system components along a road for the vehicle, wherein the method includes the steps of: receiving a signal from at least one electrical charge segment along the road, the signal being indicative of a present operational status of the at least one electrical charge segment; comparing the present operational status of the at least one electrical charge segment with a predetermined set of rules; and determining that the upcoming road situation at the at least one electrical charge segment ahead of the vehicle constitutes an increased safety risk for the vehicle if the present operational status of the at least one electrical charge segment ahead of the vehicle fails to fulfil at least one of the predetermined set of rides.

In a method of operating a motor vehicle driven electrically, at least temporarily, on a roadway, the motor vehicle is moved fully autonomously by a control unit in response to a command for automatic operating mode. After a charging arm of the motor vehicle has been extended, a lateral control of the motor vehicle is executed to bring the extended charging arm into electric contact with a charging line arranged at or on the roadway. As a result, electric energy provided from the charging line to the charging arm is used for charging an energy accumulator of the motor vehicle and/or operating a drive device of the motor vehicle for moving the motor vehicle. A longitudinal control of the motor vehicle is executed to thereby maintain a predefined longitudinal speed of the motor vehicle until a distance of the motor vehicle reaches a predefined minimum distance to a leading vehicle.